PHOTOPHYSICAL PROPERTIES OF meso‐TETRAPHENYLPORPHYRIN and SOME meso‐TETRA(HYDROXYPHENYL)PORPHYRINS

Bonnett, Raymond; McGarvey, David J.; Harriman, Anthony; Land, Edward J.; Truscott, T. George; Winfield, U J

doi:10.1111/j.1751-1097.1988.tb02820.x

Cited by 169 publications

(145 citation statements)

References 26 publications

(28 reference statements)

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“…Whereas, the o-, m-and p-isomers of THPP exhibited similar photophysical properties (Bonnett et al, 1988) large differences were noted in their biological activities, with the m-isomer showing the highest potency in sensitising tumours in vivo (Berenbaum et al, 1986). Unlike the disulphonated phthalocyanines and tetraphenylporphins, the THPP isomers are symmetric, lipophilic molecules lacking the characteristic amphiphilic properties of the disulphonated photosensitisers.…”

Section: Discussionmentioning

confidence: 99%

“…Berenbaum et al (1986) tested the ortho, meta and para isomers of meso-tetra(hydroxyphenyl)porphine (THPP) for their in vivo photodynamic activity and skin photosensitisation. Although the m-and o-THPP have very similar photophysical properties and similar absorbances at the wavelength used for PDT (Bonnett et al, 1988), the m-THPP is twice as effective as o-THPP in sensitising tumours, while o-THPP is four times as potent as m-THPP in sensitising skin. Doses of p-THPP and m-THPP that produce equal tumour necrosis are of the ratio 5:1, while their molar absorbances at the illuminating wavelengths are of the ratio 2:1.…”

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confidence: 99%

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Biological activities of phthalocyanines – XVI. Tetrahydroxy- and tetraalkylhydroxy zinc phthalocyanines. Effect of alkyl chain length on in vitro and in vivo photodynamic activities

Boyle

Leznoff²,

Lier³

1993

Br J Cancer

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Summary Zinc phthalocyanine substituted with four hydroxyl groups attached to the macrocycle, either directly or via spacer chains of three or six carbon atoms, were tested for their photodynamic ability to inactivate Chinese hamster lung fibroblasts (line V-79) in vitro, and to induce regression of EMT-6 tumours grown subcutaneously in Balb/c mice. Their potential to inflict direct cell killing during photodynamic therapy was investigated by examining vascular stasis immediately following photoirradiation using fluorescein as a marker, and also by an in vivo/in vitro EMT-6 cell survival assay. Both of the tetraalkylhydroxy substituted zinc phthalocyanines are effective photodynamic sensitisers in vivo with the tetrapropylhydroxy compound exhibiting about twice the activity of the tetrahexylhydroxy analogue. The differences in activities were accentuated in vitro, the tetrapropylhydroxy compound was two orders of magnitude more potent than the tetrahexylhydroxy analogue in photoinactivating V-79 The photosensitiser currently used, Photofrin II.m (P-II), is a complex mixture of porphyrin dimers and oligomers, the active component of which, as yet, remains unidentified. It is, therefore, of increasing importance that 'second generation' photosensitisers of known composition and increased photodynamic activity are developed to provide an alternative to P-II. Phthalocyanines (Pc's) have been proposed as promising potential PDT agents (for recent reviews see van Rosenthal, 1991) primarily because of the high molar absorptivity of these compounds in the red region of the visible spectrum (et105 M' cm' at 670-680 nm when fully monomerised compared to a103M-'cm'1 at 630nm for P-II) where tissue transmission by visible light is more efficent. Their photodynamic activities in vivo largely depend on pharmacokinetics and intratissular distribution pattern and only limited structure-activity relationships have been put forth (Paquette & van Lier, 1992). Degree of sulfonation of Pc's is the most studied structural variable, however, many alternative substituents are possible and remain unexplored. An approach towards the synthesis of novel Pc's on the basis of known structural data, and good photodynamic properties of related compounds, could be potentially rewarding, and this is the rationale for the current study.Berenbaum et al. (1986) tested the ortho, meta and para isomers of meso-tetra(hydroxyphenyl)porphine (THPP) for their in vivo photodynamic activity and skin photosensitisation. Although the m-and o-THPP have very similar photophysical properties and similar absorbances at the wavelength used for PDT (Bonnett et al., 1988), the m-THPP is twice as effective as o-THPP in sensitising tumours, while o-THPP is four times as potent as m-THPP in sensitising skin. Doses of p-THPP and m-THPP that produce equal tumour necrosis are of the ratio 5:1, while their molar absorbances at the illuminating wavelengths are of the ratio 2:1. These data suggest that m-THPP has considerably greater ability than the para and ortho iso...

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Biological activities of phthalocyanines – XVI. Tetrahydroxy- and tetraalkylhydroxy zinc phthalocyanines. Effect of alkyl chain length on in vitro and in vivo photodynamic activities

Boyle

Leznoff²,

Lier³

1993

Br J Cancer

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“…[24] In case of the DP forms of Н 2 ТPP and its para-hydroxyl-substituted derivative Н 2 ТHPP, a more pronounced decrease in the Φ ISC value has been measured (0.30 and 0.29, respectively). [14,24,61,62] A slightly decreased Φ ISC value of 0.51 has been found for the water-soluble para-sulfonyl-substituted derivative Н 2 ТSPP. [21] It is clear that such a behavior of the Photophysical Properties of Protonated Porphyrins intersystem crossing quantum yield can be explained when multiple factors affect the rates of the intramolecular channels of excitation energy deactivation, with their competition determining the efficiency of the population of the triplet manifold in each particular case.…”

Section: Photophysical Properties Of Mono-and Diprotonated Porphyrinsmentioning

confidence: 99%

Influence of Macrocycle Protonation on the Photophysical Properties of Porphyrins

Kruk¹,

Старухин²,

Maes³

2011

MHC

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“…Individual singlet oxygen luminescence traces were signal averaged and fitted using a single exponential function to yield the luminescence intensity. The phosphorescence intensity was then plotted against the laser energy [27], which gave straight lines whose slopes were compared with that obtained from the reference biphenyl, yielding relative singlet oxygen quantum yields, ˚ . The relative ˚ values obtained for NAD (Table 7) show a dependence on solvent and vary between 0.097 and 0.396, in water and chloroform, respectively.…”

Section: Singlet Oxygen Measurementsmentioning

confidence: 99%

“…Singlet oxygen quantum yield, ˚ , was detected using timeresolved phosphorescence [27] by monitoring room temperature phosphorescence decay centered at 1270 nm using a Hamamatsu R5509-42 photomultiplier, cooled at 193 K in a liquid nitrogen chamber, following laser excitation of aerated NAD solutions in different solvents at 266 nm, with an Applied Photophysics flash kinetic spectrometer. Decays were then extrapolated to time zero and the initial phosphorescence signal studied as a function of laser intensity.…”

Section: Singlet Oxygen Measurementsmentioning

confidence: 99%

Photophysical characterization of the plant growth regulator 2-(1-naphthyl) acetamide

Silva

Wong-Wah-Chung

Sarakha

2013

Journal of Photochemistry and Photobiology A: Chemistry

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a b s t r a c tThe photophysical properties of the widely used plant growth regulator 2-(1-naphthyl) acetamide (NAD) were studied in water and representative organic solvents (ethanol, ethylene glycol, acetonitrile, chloroform, 1,4-dioxane) employing steady-state and time-resolved spectroscopy. Quantum yields and lifetimes of fluorescence, phosphorescence and triplet formation and triplet-triplet absorption spectra were obtained. From these, all radiative and radiationless rate constants have been determined, together with singlet and triplet excited state energies (4.00 and 2.69 eV, respectively). The fluorescence quantum yield and lifetime increased on going from water (˚F 0.066, F 35.0 ns) to non-hydrogen bonding solvents (˚F 0.357, F 51.0 ns in 1,4-dioxane), probably due to decreased internal conversion. Fluorescence was quenched by several anions through an electron transfer process. A limit on the reduction potential of 1 NAD* of E 0 2.1 ± 0.2 V was estimated. The attribution of the transient absorption seen in nanosecond laser flash photolysis to 3 NAD* was confirmed by energy transfer and oxygen quenching. Quenching of triplet states leads to singlet oxygen formation, with quantum yields varying from 0.097 in water to 0.396 in chloroform. However, these are lower than the triplet state quantum yields, particularly in water (˚T 0.424), indicating competing quenching pathways, probably involving electron transfer. The relevance of these results to the photoreactivity of NAD under environmental conditions is discussed.

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PHOTOPHYSICAL PROPERTIES OF meso‐TETRAPHENYLPORPHYRIN and SOME meso‐TETRA(HYDROXYPHENYL)PORPHYRINS

Cited by 169 publications

References 26 publications

Biological activities of phthalocyanines – XVI. Tetrahydroxy- and tetraalkylhydroxy zinc phthalocyanines. Effect of alkyl chain length on in vitro and in vivo photodynamic activities

Biological activities of phthalocyanines – XVI. Tetrahydroxy- and tetraalkylhydroxy zinc phthalocyanines. Effect of alkyl chain length on in vitro and in vivo photodynamic activities

Influence of Macrocycle Protonation on the Photophysical Properties of Porphyrins

Photophysical characterization of the plant growth regulator 2-(1-naphthyl) acetamide

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